Transcript Chapter 11

Chapter 19
Risk, Toxicology, and Human
Health
Key Questions
What types of hazards do humans face?
 What chemical hazards do humans face?
 What types of diseases threaten people in
developing and developed countries?
 How can risks be estimated and reduced?

Cause of Death
Deaths
Tobacco use
440,000
Alcohol use
150,000
Accidents
95,600 (41,800 auto)
Pneumonia and
influenza
Suicides
Homicides
67,000
28,300
16,100
Hard drug use
15,600
AIDS
14,400
© 2004 Brooks/Cole – Thomson Learning
Annual Deaths in the U.S.
What Is a Risk?
The possibility of suffering harm from a
hazard that can cause injury, disease,
economic loss, or environmental damage
 Expressed in terms of probability
 Risk = Exposure x Harm

How Are Risks Assessed?
1.
2.
3.
What is the hazard?
How likely is the event?
How much damage is it likely to cause?
Example: to assess the risk of exposure to a toxic
chemical, you must look at the following:
1.
Number of people/animals exposed
2.
How long they were exposed
3.
Age, health, sex, interaction with other chemicals, etc.
How Are Risks Managed?
How serious is the risk compared to other
risks?
 How much should the risk be reduced?
 How can the risk be reduced?
 How much money will be needed?

© 2004 Brooks/Cole – Thomson Learning
Risk Assessment
Hazard identification
What is the hazard?
Probability of risk
How likely is the
event?
Consequences of risk
What is the likely
damage?
Risk Management
Comparative risk analysis
How does it compare
with other risks?
Risk reduction
How much should
it be reduced?
Risk reduction strategy
How will the risk
be reduced?
Financial commitment
How much money
should be spent?
What Are the Major Types of
Hazards?
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Cultural Hazards: unsafe working conditions,
poor diet, smoking, poverty
Chemical Hazards: harmful chemicals in the air,
water, soil, food (human body contains about 500 synthetic
chemicals whose health effects are unknown)
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Physical Hazards: fire, earthquake, flood
Biological Hazards: allergens, bacteria, viruses,
bees, poisonous snakes
What Determines Whether a
Chemical is Harmful?
1.
2.
3.
4.
5.
Size of dose over a certain period of time
How often an exposure occurs
Who is exposed (adult or child?)
How well the body can detox
Genetic makeup of the individual
Harm Can Also be Affected by…
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Solubility: can the toxin get into the water
supply?
Persistence: does not break down easily; longlasting effects on people and animals
Bioaccumulation: molecules are absorbed and
stored in organs or tissues at a high level
Biomagnification: some toxins are magnified as
they pass through food chains
Chemical interactions: can multiply harmful
effect of a toxin
DDT in fish-eating
birds (ospreys)
25 ppm
DDT in large
fish (needle fish)
2 ppm
DDT in small
fish (minnows)
0.5 ppm
DDT in
zooplankton
0.04 ppm
DDT in water
0.000003 ppm,
Or 3 ppt
BIOACCUMULATION
Variations in sensitivity due to genetic
makeup
Number of individuals affected
© 2004 Brooks/Cole – Thomson Learning
Very
sensitive
0
20
Majority
of population
40
Dose (hypothetical units)
Very
insensitive
60
80
Response
Response: type and amount of health
damage that results from exposure
 Acute effect: immediate harmful reaction
Ex: dizziness or rash
 Chronic effect: permanent, long-lasting
consequence
Ex: kidney or liver damage

How Concerned Should We Be?
Most chemicals have threshold levels of exposure
below which we are safe because…
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Human body has ways of breaking down and
diluting toxins
Cells have enzymes that repair damaged DNA
Some cells can reproduce fast enough to
replace damaged cells
What is a Poison?
Poison: chemical that has an LD50 of 50
milligrams or less per kilogram of body
weight
 LD50: amount of a chemical that kills
exactly 50% of animals
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© 2004 Brooks/Cole – Thomson Learning
Percentage of population killed by a given dose
100
75
50
25
LD
0
2
4
6
8
50
10
12
Dose (hypothetical units)
14
16
How Do We Estimate Toxicity?
Case reports: accidental poisonings, drug
overdoses, suicide attempts, etc.
 Epidemiological studies: experiments
where healthy people are exposed to a
toxin

How Are Lab Experiments Used to
Estimate Toxicity?
Use live laboratory animals
 Cost $200,000-$2 million per substance
 Dose-response curve—shows the effects
of different doses of a toxin on a group of
test organisms
 Controlled experiments-compare test
group to control group

Dose-response Models

Nonthreshold dose-response model:
any dosage of a toxic chemical causes
harm that increases with dosage

Threshold dose-response model:
threshold dosage must be reached before
any harmful effects occur
What are Toxic and Hazardous
Chemicals?

Toxic chemicals: substances that are
fatal to more than 50% of test animals

Hazardous chemicals: cause harm by
being explosive, damaging to skin or
lungs, interfering with oxygen, or causing
allergic reaction
What are Mutagens?
Mutagens: agents that cause random
mutations (changes) in DNA.
Example: mutations in sperm or egg cells
can be passed on and cause bipolar
disorder, cancer, hemophilia, Down
Syndrome, etc.
 Most mutations are harmless (DNA repair
enzymes)
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What are Teratogens?

Teratogens: chemicals, radiation, or
viruses that cause birth defects during the
first 3 months of pregnancy
Examples: PCBs, steriod hormones, heavy
metals (lead, mercury)
What are Carcinogens?
Carcinogens: chemicals, radiation, or
viruses that cause the growth of a
cancerous (malignant) tumor—cells
multiple uncontrollably and may spread by
metastasis to other parts of the body
 Cigarette smoke, occupational exposure,
environmental pollutants, inheritance

How Can Chemicals Harm the Immune,
Nervous, and Endocrine System?
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Long-term exposure can affect these systems
Immune System: specialized cells and tissues that
protect against disease and harmful substances by
forming antibodies
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Diseases such as HIV can weaken the immune system, leaving body vulnerable to
allergens, bacteria, and viruses.

Nervous System: (brain, spinal cord, nerves)-many poisons
are neurotoxins which attack nerve cells (DDT, PCBs,
pesticides, lead, arsenic)
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Endocrine System: (hormones for reproduction, growth,
development, behavior)-hormonally active agents mimic
and disrupt the effects of natural hormones
Hormone
Estrogen-like chemical
Antiandrogen chemical
Receptor
Cell
Normal Hormone Process
Hormone Mimic
Hormone Blocker
What is the Precautionary
Approach?
When we are uncertain about the
harmfulness of chemicals, decision
makers should act to prevent harm to
humans and the environment
 “better safe than sorry”

What Are Nontransmissable
Diseases?

Nontransmissable disease: not caused
by living organisms and does not spread
from one person to another
Example: heart and blood disorders,
asthma, malnutrition
What Are Transmissable
Diseases?
Transmissable Disease: caused by living
organisms (bacteria, parasite, etc.) and
can be spread from person to person
 Pathogens: infectious agents-spread by
air, water, food, body fluids, some insects,
etc.

Top 7 Deadliest Infectious Diseases
1.
2.
3.
4.
5.
6.
7.
Acute respiratory infection (pneumonia, flu)
AIDS (virus)
Diarrheal diseases (bacteria and virus)
Tuberculosis (bacteria)
Malaria (parasite)
Hepatitis B (virus)
Measles (virus)
Viruses
Figure 11-8
Page 236
HIV
(AIDS)
Smallpox
Hepatitis B
Protozoa
Ebola
On this scale, a human hair would be 6 meters (20 feet) wide
1 micrometer
Plasmodium
(malaria)
Bacteria
Vibrio cholerae
(cholera)
Treponema pallidum (syphilis)
6 micrometers
Myobacterium
tuberculosis
(tuberculosis)
10 micrometers
The virus attaches to the
host cell. The entire virus
may enter or it may inject
its genetic material,
or genome.
Virus
Cell membrane
Host cell
The viral genetic
material uses the
host cell's DNA to
replicate again
and again.
Each new copy of
the virus directs the
cell to make it a
protein shell.
The new viruses emerge from
the host cell capable of infecting
other cells. This process often
destroys the first cell.
North America
940,000 (20,000)
Eastern Europe
& Central Asia
1 million (23,000)
Western Europe
560,000 (6,800)
Caribbean
420,000 (30,000)
Latin America
1.4 million (80,000)
East Asia & Pacific
1 million (35,000)
North Africa
& Middle East
440,000 (30,000)
South &
Southeast Asia
6.1 million (400,000)
Sub-Saharan Africa
28.1 million (2-3 million)
Australia &
New Zealand
15,000 (120)
40 Million people infected with HIV in 2001.
Numbers in ( ) are # of deaths in 2001
HIV/AIDS
• HIV immune
suppression
facilitates active
TB development
• AIDS can lead to job
loss and poverty
Malnutrition
TB
• Malnutrition weakens
body and may
facilitate HIV
transmission
and progress
• TB can lead
to job loss and
malnutrition
because of
lack of money
• Malnutrition may
facilitate development
of active TB
• Active TB facilitates
HIV replication
and speeds up
HIV progression
Figure 11-12
Page 243
Malaria-free areas
Malaria largely eliminated
Malaria transmission areas
Anopheles mosquito (vector)
in aquatic breeding area
eggs
adult
larva
pupa
1. Female
mosquito bites
infected human,
ingesting blood
that contains
Plasmodium
gametocytes
4. Parasite invades
blood cells, causing
malaria and making
infected person
a new reservoir
2. Plasmodium
develops in
mosquito
3. Mosquito injects Plasmodium
sporozoites into human host
Increase research on
tropical diseases and
vaccines
Reduce poverty
Decrease malnutrition
Improve drinking
water quality
Reduce unnecessary
use of antibiotics
Educate people to
take all of an
antibiotic prescription
Reduce antibiotic use
to promote livestock
growth
Careful hand washing
by all medical
personnel
Slow global warming
to reduce spread of
tropical diseases to
temperate areas
Increase preventative
health care
Scientists
(Not in rank order
in each category)
High-Risk Health Problems
• Indoor air pollution
• Outdoor air pollution
• Worker exposure to industrial
or farm chemicals
• Pollutants in drinking water
• Pesticide residues on food
• Toxic chemicals in consumer products
High-Risk Ecological Problems
• Global climate change
• Stratospheric ozone depletion
• Wildlife habitat alteration and destruction
• Species extinction and loss of biodiversity
Citizens
(In rank order)
High-Risk Problems
• Hazardous waste sites
• Industrial water pollution
• Occupational exposure
to chemicals
• Oil spills
• Stratospheric ozone depletion
• Nuclear power-plant accidents
• Industrial accidents releasing
pollutants
• Radioactive wastes
• Air pollution from factories
• Leaking underground tanks
Medium-Risk Ecological Problems
• Acid deposition
• Pesticides
• Airborne toxic chemicals
• Toxic chemicals, nutrients, and
sediment in surface waters
Medium-Risk Problems
• Coastal water contamination
• Solid waste and litter
• Pesticide risks to farm workers
• Water pollution from
sewage plants
Low-Risk Ecological Problems
• Oil spills
• Groundwater pollution
• Radioactive isotopes
• Acid runoff to surface waters
• Thermal pollution
Low-Risk Problems
• Air pollution from vehicles
• Pesticide residues in foods
• Global climate change
• Drinking water contamination
© 2004 Brooks/Cole – Thomson Learning
Shortens average life span in the United States by
Hazard
Poverty
7-10 years
Born male
7.5 years
Smoking
6 years
Overweight (35%)
6 years
Unmarried
5 years
2 years
Overweight (15%)
Spouse smoking
1 year
Driving
7 months
Air pollution
5 months
Alcohol
5 months
Drug abuse
4 months
Flu
4 months
AIDS
Air Pollution
3 months
2 months
Drowning
1 month
Pesticides
1 month
Fire
1 month
Natural radiation
8 days
Medical X rays
5 days
Oral contraceptives
5 days
Toxic waste
4 days
Flying
1 day
Hurricanes, tornadoes
1 day
Living lifetime near nuclear plant
10 hours
How Can We Estimate Risks?
1.
2.
3.
4.
Identify hazards
Rank risks (comparative risk analysis)
Make decisions to reduce risks
Communicating to the public about risks
Most widely used method is benefit-cost
analysis
How Well Do We Perceive Risks?

Most of us do poorly in assessing the risks
from the hazards that surround us